KR101732895B1 - polymer mortar compositon and repairing method of water permeable concrete road surface using the same - Google Patents

Abstract

The present invention relates to a polymer resin mortar composition and a method for repairing the water permeable concrete road surface using the same. More specifically, the polymer resin mortar composition can be used for repairing the road surface of a bicycle road or the sidewalk constructed with water permeable concrete using a polymer resin having excellent durability, binding properties and rapid hardening properties. The polymer resin mortar composition comprises 20 to 70 wt% of a cement mixture in which white cement, alumina cement, calcium carbonate, pigments, anhydrous gypsum, silica, an antifoamer, a coagulant and a high-range water-reducing agent are mixed, and 30 to 80 wt% of a water-soluble polymer resin.

Description

TECHNICAL FIELD [0001] The present invention relates to a polymeric resin mortar composition and a repair method of a water permeable concrete road surface using the same,

The present invention relates to a polymeric resin mortar composition and a method for repairing a water-permeable concrete road surface using the polymeric resin mortar composition. More particularly, the present invention relates to a polymeric resin mortar composition and a method for repairing a waterproof concrete road surface using the polymeric resin mortar composition. The present invention relates to a polymeric resin mortar composition useful for repairing road surfaces and a method for repairing a water permeable concrete road surface using the same.

Water permeable concrete means water permeable concrete, which is made by mixing small size natural stone aggregate, cement, water, and additives such as pigments and dyes.

The permeability principle of the water permeable concrete is such that the stormwater flows into or out of the pores formed by the continuous pores between the cement paste and the aggregate, which are the filling material between the aggregates, and obtains a proper mixing ratio of the permeability coefficient opposite to the strength.

The permeable concrete is excellent in walkability by preventing the water from flowing on the road surface while introducing the storm into the roadbed and ground water, and has good flatness by using the voltage compaction pavement method and has excellent properties in the sidewalk, bicycle road, parking lot and the like.

Water permeable concrete is very convenient for pedestrians and bicycle drivers because water does not accumulate on the surface due to the penetration of water into the inside as described above. In addition, the permeable concrete mostly mixes pigments or dyes and makes bright colors such as red or green appear to make users feel bright.

In this way, the permeable concrete is bright and good at first, but as time goes by, the color is faded by sunlight ultraviolet rays, and the pollutant accumulates on the surface in case of environmental dust or rain. Also, as time passes, continuous impact and load are applied, and the aggregate is removed from the road surface, resulting in peeling, abrasion, and breakage of the road surface.

A method using cement mortar is known to repair damaged roads. In case of cement mortar repair method, curing time is very long in spite of being a very good package in terms of life cycle cost due to the advantage that the load resistance due to cement inorganic bonding is excellent, These cement bindings have a disadvantage of shortening of the traffic opening time, and the deterioration due to carbon dioxide or acid rain in the atmosphere, neutralization of salt as a snow melting agent and durability degradation caused by salt damage, and cracks due to physical changes such as expansion contraction It has disadvantages such as a secondary performance degradation.

Korean Patent No. 10-1339584: composition for repairing road surface of aged cement concrete capable of shortening the opening time of traffic and repairing method using the same

The present invention has been made in order to overcome the above problems, and it is an object of the present invention to provide a polymer resin capable of easily constructing a broken road surface of a bicycle road or a sidewalk constructed with water permeable concrete using a polymer resin having excellent durability, The present invention provides a mortar composition and a method for repairing a water permeable concrete road surface using the same.

In order to achieve the above object, the polymeric resin mortar composition of the present invention comprises 20 to 70% by weight of a cement mixture in which white cement, alumina cement, calcium carbonate, pigment, anhydrous gypsum, silica, defoamer, And 30 to 80% by weight of the polymer resin.

The water-soluble polymer resin is an acrylic resin.

And a method of repairing a water permeable concrete road surface using a polymer resin mortar composition includes: a washing step of spraying water on a road surface of a bicycle road or a sidewalk applied with water permeable concrete; A primer applying step of applying a water-soluble primer to the cleaned road surface to form a primer layer; A first coating step of mixing a cement mixture and a water-soluble polymer resin in a weight ratio of 2: 8 to form a first mortar layer by mixing the first polymer resin mortar composition with water and applying the composition on the primer layer; A first curing step of curing the first mortar layer; The second polymeric resin mortar composition in which the cement mixture and the water-soluble polymer resin are mixed at a weight ratio of 4: 6 is blended with water and applied on the first mortar layer to form a second mortar layer while filling the gap with the water-permeable concrete A second application step; A second curing step of curing the second mortar layer; A third application step of mixing a cement powder mixture and a water-soluble polymer resin in a weight ratio of 3: 7 to form a third mortar layer; and mixing the third polymer resin mortar composition with water to form a third mortar layer; And a third curing step of curing the third mortar layer, wherein the cement mixture is prepared by mixing white cement, alumina cement, calcium carbonate, a pigment, anhydrous gypsum, silica, defoamer, coagulant and fluidizing agent, The resin is an acrylic resin. And a finishing step of applying a surface strengthening agent to the third mortar layer after the third curing step with a roller to form a finish layer.

The surface strengthening agent contains an acrylic resin and a filler, and the filler is a mixture of zeolite powder having silver ions and selenium powder at a weight ratio of 2: 1.

As described above, according to the present invention, it is possible to easily construct a broken road surface of a bicycle road or a sidewalk, which is constructed of water permeable concrete, using a polymer resin having excellent durability, fastness and fastness.

Also, because it is wrapped on the permeable concrete road surface, it is easy to construct, it does not generate waste, and various colors can be realized.

Hereinafter, a polymeric resin mortar composition according to a preferred embodiment of the present invention and a method for repairing a water permeable concrete road surface using the same will be described in detail.

The polymeric resin mortar composition according to an embodiment of the present invention is prepared by mixing a cement mixture and a water-soluble polymer resin. For example, 20 to 70% by weight of the cement mixture and 30 to 80% by weight of the water-soluble polymer resin can be mixed.

The cement mixture is a mixture of white cement, alumina cement, calcium carbonate, pigment, anhydrous gypsum, silica, defoamer, coagulant and fluidizing agent.

White cement and alumina cement act as binders.

Calcium carbonate and silica are used as fillers to improve durability and increase mechanical properties.

And anhydrite plays a role in increasing the compressive strength of the flooring.

The pigment gives a coloring effect, and an inorganic pigment can be used. As the inorganic pigment, talc, titanium dioxide, iron oxide and the like can be used.

As the fluidizing agent, conventional fluidizing agents such as melamine-based superplasticizer, naphthalene-based superplasticizer, polycarboxy-based superplasticizer, lignosulfate-based superplasticizer and the like can be used.

As the defoaming agent, a hydrocarbon polyglycol defoaming agent can be used. Carboxymethylcellulose can be used as a coagulant.

The cement admixture comprises 50 to 150 parts by weight of alumina cement, 1 to 6 parts by weight of calcium carbonate, 0.5 to 4 parts by weight of pigment, 1 to 6 parts by weight of anhydrous gypsum, 2 to 10 parts by weight of silica, 2 to 5 parts by weight of a coagulant, and 1 to 6 parts by weight of a fluidizing agent.

And a powdery acrylic resin may be used as the water-soluble polymer resin.

The polymeric resin mortar composition in which the cement mixture and the water-soluble polymer resin are mixed in a weight ratio of 2: 7: 3 to 8 is appropriately used in combination with water. At this time, the flowability of the cement admixture and the water-soluble polymer resin can be controlled by appropriately adjusting the weight ratio of the cement admixture and the water-soluble polymer resin within a range of 2 to 7: 3 to 8.

The polymeric resin mortar composition of the present invention is excellent in durability, bonding property, and quick hardness. In addition, it has an advantage that various colors can be realized compared with the conventional concrete mortar.

Hereinafter, a method of repairing the water permeable concrete road surface using the polymeric resin mortar composition of the present invention will be described.

The method for repairing the water permeable concrete road surface includes a cleaning step, a primer application step, a first application step, a first curing step, a second application step, a second curing step, a third application step, . Each step will be explained.

First, a washing step of spraying water on a road surface to be repaired, that is, a damaged road surface, is performed on a road surface of a bicycle road or a sidewalk applied with water permeable concrete. In order to remove foreign materials on the road surface, it is swept using a rotary brush attached to a cleaning vehicle, and water is sprayed on the road surface using a high-pressure sprayer. Remove any water remaining on the road after washing with water. In this case, it may be dried in a dryer or allowed to stand for a certain time and then air dried

Next, a primer application step of applying a primer to the cleaned road surface to form a primer layer is carried out. Conventional water-soluble primers can be used as primers. The primer is applied to the road surface to form a primer layer.

Next, the polymeric resin mortar composition is mixed with water and applied on the primer layer to perform the first application step of forming the first mortar layer while filling up the clearance of the water permeable concrete.

The polymeric resin mortar composition is the same as described above. The polymeric resin mortar composition to be used in the first application step is preferably a mixture of the cement mixture and the water-soluble polymer resin in a weight ratio of 2: 8. For convenience of explanation, a mixture of the cement mixture and the water-soluble polymer resin at a weight ratio of 2: 8 is referred to as a first polymer resin mortar composition. 40 to 100 parts by weight of water are mixed with 100 parts by weight of the first polymeric resin mortar composition to obtain a first paste.

The first polymeric resin mortar composition used in the first coating step is a mixture of the cement mixture and the water-soluble polymer resin in a weight ratio of 2: 8 in order to increase the content of the water-soluble polymer resin to improve the fluidity of the first paste.

A first paste is applied over the primer layer. The first paste has high fluidity so that it seeps into the clearance of the permeable concrete to fill the gap. Through the first application step, a first mortar layer is formed on the primer layer.

A first curing step of curing the first mortar layer by leaving the first mortar layer for a predetermined time is performed.

Next, the polymeric resin mortar composition is mixed with water and applied on the first mortar layer to perform a second application step of filling the gap of the water permeable concrete to form the second mortar layer.

The polymeric resin mortar composition is the same as described above. However, the polymeric resin mortar composition to be used in the second application step is preferably a mixture of the cement mixture and the water-soluble polymer resin in a weight ratio of 4: 6. For convenience of explanation, a mixture of a cement mixture and a water-soluble polymer resin in a weight ratio of 4: 6 is referred to as a second polymer resin mortar composition.

40 to 100 parts by weight of water are mixed with 100 parts by weight of the second polymeric resin mortar composition to obtain a second paste.

The second polymeric resin mortar composition used in the second application step is a mixture of the cement mixture and the water-soluble polymeric resin in a weight ratio of 4: 6, which is lower than the content of the water-soluble polymeric resin relative to the first polymeric resin mortar composition, So that the clearance of the water permeable concrete can be filled.

The second paste is applied on the first mortar layer to fill the voids of the water permeable concrete to form the second mortar layer. After applying the second paste, it is possible to push the road surface of the water permeable concrete with a rubber squeeze (push rod) in order to push the second paste on the road surface of the water permeable concrete into the clearance of the water permeable concrete.

A second curing step of curing the second mortar layer by leaving the second mortar layer for a predetermined time is performed.

Next, a third application step is performed in which the polymeric resin mortar composition is compounded with water and applied over the second mortar layer to form a third mortar layer.

The polymeric resin mortar composition is the same as described above. However, the polymeric resin mortar composition to be used in the third application step is preferably a mixture of the cement mixture and the water-soluble polymer resin in a weight ratio of 7: 3. For convenience of explanation, a mixture of the cement mixture and the water-soluble polymer resin at a weight ratio of 7: 3 is referred to as a third polymer resin mortar composition.

40 to 100 parts by weight of water are mixed with 100 parts by weight of the third polymeric resin mortar composition to obtain a third paste.

The third polymeric resin mortar composition used in the third application step is a mixture of a cement mixture and a water-soluble polymer resin in a weight ratio of 7: 3 in order to form a high-strength film.

The third paste is applied on the second mortar layer using a spray gun to form a third mortar layer, and then the third mortar layer is left for a predetermined time to cure the third mortar layer, thereby completing the repair of the road surface.

As another example of the present invention, it is possible to further perform a finishing step of forming a finish layer by applying a surface strengthening agent to the third mortar layer after the third curing step with a roller.

As the surface strengthening agent, an acrylic resin for ordinary paints can be used. The surface strengthening agent may be prepared by mixing 5 to 15 parts by weight of filler with respect to 100 parts by weight of the acrylic resin.

The filler may be a mixture of zeolite powder having silver ions and selenium powder at a weight ratio of 2: 1.

The zeolite powder with silver ions imparts antimicrobial properties, and selenium reduces adhesion of organic materials.

The zeolite powder with silver ions may be 100-300 mesh in size. Zeolites which can be applied to the present invention are zeolites having silver ions. That is, it is a zeolite having ion-exchangeable ions completely or partially substituted with silver ions. The zeolite may be natural or synthetic. Zeolites are generally aluminosilicates with a three-dimensional framework structure. Examples of ion exchangeable ions present in the zeolite material are sodium ion, calcium ion, potassium ion, magnesium ion, and iron ion. All or a portion of such ion exchangeable ions are completely or partially replaced (ion exchanged) with silver ions acting as antibacterial metal ions to impart antimicrobial properties to the zeolite. All or part of the ion exchangeable ions of the zeolite can be replaced with silver ions by a known method.

The selenium powder may be 100-300 mesh in size. Selenium has the effect of reducing the adherence of organic materials to the finish layer by emitting a large amount of negative ions.

Hereinafter, the polyurethane resin mortar composition of the present invention will be described by way of examples. However, the following examples are intended to illustrate the present invention in detail, and the scope of the present invention is not limited to the following examples.

(Example)

80 parts by weight of alumina cement, 3 parts by weight of calcium carbonate, 2 parts by weight of iron oxide pigment, 4 parts by weight of anhydrous gypsum, 6 parts by weight of silica, 1 part by weight of polylactide glycolide defoaming agent, 1 part by weight of carboxymethyl cellulose condensate , And 3 parts by weight of a melanin-based fluidizing agent were mixed to prepare a cement mixture. An acrylic resin was prepared from a water-soluble polymer resin.

70 parts by weight of water was added to 100 parts by weight of the polymeric resin mortar composition in which the cement mixture and the water-soluble polymer resin were mixed at a weight ratio of 7: 3, and the mixture was stirred for 5 minutes by using a high-speed stirrer, After drying at room temperature, a film sample was prepared.

Appears as a result of measuring the tensile strength and compressive strength, adhesive strength of the film specimen, the tensile strength 55kg / cm ^2, compression strength of 361kg / cm ^2, the adhesive force 45kg / cm ² was confirmed to be excellent in terms of strength and adhesiveness.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation.

Claims (5)

delete delete A washing step of spraying water on a road surface of a bicycle road or a sidewalk applied with water permeable concrete;
A primer applying step of applying a water-soluble primer to the cleaned road surface to form a primer layer;
A first coating step of mixing a cement mixture and a water-soluble polymer resin in a weight ratio of 2: 8 to form a first mortar layer by mixing the first polymer resin mortar composition with water and applying the composition on the primer layer;
A first curing step of curing the first mortar layer;
The second polymeric resin mortar composition in which the cement mixture and the water-soluble polymer resin are mixed at a weight ratio of 4: 6 is blended with water and applied on the first mortar layer to form a second mortar layer while filling the gap with the water-permeable concrete A second application step;
A second curing step of curing the second mortar layer;
A third application step of mixing a cement mixture and a water-soluble polymer resin in a weight ratio of 7: 3 to form a third mortar layer; and mixing the third polymer resin mortar composition with water to form a third mortar layer on the second mortar layer;
And a third curing step of curing the third mortal layer,
The cement mixture is prepared by mixing white cement, alumina cement, calcium carbonate, a pigment, anhydrous gypsum, silica, defoamer, coagulant and fluidizing agent,
The water-soluble polymer resin is an acrylic resin,
And a finishing step of applying a surface strengthening agent to the third mortar layer after the third curing step with a roller to form a finish layer,
Wherein the surface strengthening agent contains an acrylic resin and a filler,
Wherein the filler is a mixture of zeolite powder having silver ions and selenium powder at a weight ratio of 2: 1. delete delete